The Escherichia coli dsbC (xprA) gene encodes a periplasmic protein involved in disulfide bond formation.

We have identified and functionally characterized a new Escherichia coli gene, dsbC, whose product is involved in disulfide bond formation in the periplasmic space. It corresponds to a previously sequenced open reading frame mapping upstream of recJ with no previously assigned function. Null mutations in dsbC were obtained using a screen for dithiothreitol (DTT)‐sensitive mutants and were shown to result in the accumulation of reduced forms of a variety of disulfide bond‐containing periplasmic proteins. This defect could be rescued by the addition of either oxidized DTT or cystine or by multicopy expression of dsbA, a known periplasmic disulfide oxidase. The DsbC protein is synthesized as a precursor form of 25.5 kDa which is processed to a 23.3 kDa mature species located in the periplasmic space. The DsbC protein was overexpressed, purified to homogeneity and shown to catalyse the reduction of insulin in a DTT‐dependent manner at levels comparable with those of purified DsbA. The replacement of either cysteine residue of the predicted active site, F‐(X4)‐C‐G‐Y‐C, completely inactivates DsbC protein function. We have further shown that in vivo overexpression of DsbC can functionally substitute for a loss of DsbA function. Taken together, all of our results demonstrate that DsbC acts in vivo as a disulfide oxidase.